In this paper, one-variable linear regression mathematical model of top of regenerator temperature and flue temperature in machine side is built using the linear regress theory. The parameters of ARX model is determined by identification method of least square method and the mathematical model of flue temperature control is established. Applying the basis cascade control theory, system adopts flue temperature and coal flue gas flow as controlled parameters of host circuit and subsidiary circuit respectively. The compound Fuzzy-PID control strategy is presented combined with the characteristics of temperature system after analyzing the conventional PID control algorithm and fuzzy control algorithm. Using step signal and periodic signal to simulate the conventional PID and compound Fuzzy-PID algorithm, the result has indicated: Compound Fuzzy PID control algorithm combines with the advantages of fuzzy control and PID control algorithm, including fast response speed and strong anti-interference ability. When external conditions change, the fuzzy PID compound control can show the strong adaptability and robustness which effectively improve the stability of the control system.

Q. Lei and M. Wu, Fuzzy optimization control of the temperature for the heating process in coke oven based on co-evolution,, in Proceedings of the 26th Chinese Control Conference, (2007), 420.
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Q. Lei and M. Wu, Fuzzy optimization control of the temperature for the heating process in coke oven based on co-evolution,, in Proceedings of the 26th Chinese Control Conference, (2007), 420.
Google Scholar